JP5683313B2 - Information processing apparatus, activation control method, and program - Google Patents

Description

  The present invention relates to an information processing apparatus, a startup control method, and a program.

In recent years, attention has been focused on standard communication standards such as UPnP (Universal Plug And Play), which connects multiple devices and information appliances via a home network and shares and uses content data such as images, videos, and audio. Has been. In addition, these devices and information home appliances have a function of automatically entering a power-off state or a sleep mode state when they are not used for a certain period from the viewpoint of energy saving. Such devices and information appliances also have a function of accepting an activation request via a network when the power is off or in a sleep mode, such as a Wakeup On Lan function.
Therefore, the user wants to use a service provided by the network device by remotely starting up a network device such as a power-off state or a sleep mode device connected to a home network or a home appliance such as an information home appliance. Yes.

Here, the activation request terminal operated by the user holds the MAC address acquired from the network device, and when the user uses the service, a technique for selecting the MAC address of the network device to be activated is disclosed. (See Patent Document 1).
In addition, a technology is also disclosed in which the activation request terminal acquires in advance the time until the application of the network device after power-on becomes stable, and issues a power-on instruction before the reserved control start time. (See Patent Document 2).

JP 2005-175625 A JP 2009-205267 A

However, in the technique described in Patent Document 1, the activation request terminal transmits an activation request to the network device, but the time until the network device is activated is not known. For this reason, in the technique described in Patent Document 1, it is necessary to monitor a startup completion message from the network device until the network device starts up and becomes controllable. Alternatively, it is necessary to repeat the search on the network until a network device can be found.
Therefore, when the network device fails to start, there is a problem that monitoring or searching continues.

In the technique described in Patent Document 2, it is possible to grasp the time that can be controlled after the activation request by acquiring the activation time of the network device in advance.
However, it is assumed that the activation request packet is not received by the network device because the network device is not connected to the network. Furthermore, even if the network device receives the activation request packet, it is assumed that the activation of the application fails for some reason.
In this case, the technique described in Patent Document 2 has a problem that the activation request terminal cannot determine whether or not activation in the network device has failed.

  The present invention has been made in view of such problems, and an object thereof is to appropriately determine activation in a network device.

  Therefore, an information processing apparatus according to the present invention is an information processing apparatus capable of communicating with a network device via a network, and requests the network device to start at least one of hardware and software of the network device. A scheduled time indicating the scheduled activation time is obtained from the request means and the network device or a storage device connected to the network, and the activation transmitted from the network device in response to the request is required. Receiving means for receiving an activation time; and determining means for determining that the activation has not been performed if the activation time is not received before the scheduled time elapses.

  According to the present invention, it is possible to appropriately determine activation in a network device.

It is a figure which shows an example of a structure of a communication system. It is a figure which shows an example of an SSDP message. It is a figure which shows an example of the sequence in a communication system. It is a figure which shows an example of the flowchart which concerns on a confirmation process. It is a figure which shows an example of the flowchart which concerns on starting execution processing. It is a figure which shows an example of the flowchart which concerns on a transmission process. It is a figure which shows an example of a function structure of a starting request | requirement terminal, and a hardware configuration.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. The embodiments do not limit the present invention, and all the configurations described in the embodiments are not necessarily essential to the means for solving the problems of the present invention.

FIG. 1 is a diagram illustrating an example of a configuration of a communication system according to the present embodiment. The communication system includes an activation request terminal 20, an activation target device 30, and a monitoring terminal 40. The activation request terminal 20, the activation target device 30, and the monitoring terminal 40 are connected to be communicable with each other via the network 10. The network 10 is a wired LAN, a wireless LAN using Bluetooth, or a combination thereof.
The activation target device 30 is an example of a network device (computer), and is a device compliant with UPnP DA (Device Architecture) and LP (UPnP Low Power Service). In addition, the activation target device 30 has a function capable of transitioning to an activation state by receiving an activation request from the outside when the power is off or in a sleep mode.
Here, the activated state is a state other than the power-off state and the sleep mode state. In a broader sense, hardware provided for the service provided by the activation target device 30 can provide the service. That is working.
In the present embodiment, WOL (Wakeup On LAN) is used as means for bringing the activation target device 30 into the activated state, but means other than WOL may be employed.

The monitoring terminal 40 is an example of an information processing device (computer), and monitors the state of the activation target device 30 in accordance with the LP Proxy function. The monitoring terminal 40 also monitors an SSDP (simple service discovery protocol) message that is multicast-transmitted on the network 10. Through this monitoring, the monitoring terminal 40 grasps and manages the state of the activation target device 30 such as power-off and sleep mode.
In addition, the monitoring terminal 40 has a function of providing information on the activation target device 30 connected to the network 10 in response to a request from the activation request terminal 20. In addition, the monitoring terminal 40 has a function of causing the activation target device 30 in the power-off state or the sleep mode state to be in the activation state, and sends a startup request in response to the activation instruction from the activation request terminal 20. By transmitting to 30, the activation target device 30 is activated.

The activation request terminal 20 sets the activation target device 30 in the power-off state or the sleep mode state to the activation state, and confirms whether the activation target device 30 can be controlled.
Here, a configuration may be adopted in which the activation request terminal 20 makes an activation request to the activation target device 30 in a power-off state or a sleep mode state. Alternatively, a configuration may be adopted in which the activation request terminal 20 issues an activation request (activation instruction) to the monitoring terminal 40, and the activation request is made to the activation target device 30 by the monitoring terminal 40. Moreover, you may employ | adopt the structure of these combinations.
Further, the activation request terminal 20 has a function of monitoring whether or not the activation target device 30 is in an activated state after making an activation request to the activation target device 30 or issuing an activation instruction to the monitoring terminal 40. Have. In addition, the activation request terminal 20 acquires information on the activation target device 30 connected to the network 10 from the monitoring terminal 40.

In the present embodiment, the activation request terminal 20 and the monitoring terminal 40 are described as physically different terminals, but may exist in one apparatus. As described above, the activation target may be a physical device (hardware), an application (software) in the device, or a combination thereof. That is, at least one of hardware and software can be set as an activation target.
For example, the activation state when the activation target is only an application (software) is a state other than the state where the application is terminated and the state where the application is stopped.

Next, the SSDP message that the activation target device 30 multicasts to the network 10 will be described with reference to FIGS. FIG. 2 is a diagram illustrating an example of an SSDP message.
The Alive message 100, which is an example of the SSDP message, is basically a message that is transmitted periodically when the activation target device 30 is connected to the network 10 and after activation. “Ssdp: alive” 101 means that the activation target device 30 is activated.
The Byeby message 200, which is an example of the SSDP message, is basically a message that is transmitted when the state transitions from the activated state to the activated state of the device 30 to be activated or the sleep mode. “Ssdp: byebye” 201 means that the activation target device 30 is not in the activated state.
“Powerstate: 2” 202 is information indicating, as a numerical value, whether the activation target device 30 is in a power-off state or a sleep mode state, and this numerical value is defined by LP. “SleepPeriod: 120” 203 is an example of a scheduled time indicating the scheduled time of activation of the activation object, and is the time (seconds) until the activation object is activated next time. In other words, it means that the SSDP message is transmitted again before this time elapses. Therefore, when the power-off state or the sleep mode state is continued, this Byeby message 200 is transmitted again.

Next, a series of processes in which the activation request terminal 20 confirms the state of the activation target device 30 will be described with reference to FIG. FIG. 3 is a diagram illustrating an example of the activation control method related to the activation target device 30, in other words, a sequence in the communication system.
The activation target device 30 multicasts an Alive message to the network 10 when connected to the network 10 (S301) (S302). Here, the monitoring terminal 40 is monitoring the SSDP message multicast-transmitted on the network 10 and receives the Alive message.
Note that the monitoring terminal 40 may acquire Device / Service Description including the device information of the activation target device 30 based on the reception of the Alive message.
Here, the device information includes the time when the SSDP message was most recently received, information on the activation method, and the like. The device information may be information defined by the UPnP standard, or may be information extended by a vendor. In addition, the monitoring terminal 40 can also acquire device information that causes the activation target device 30 to be in the activated state from the power-off state or the sleep mode state from the activation target device 30 or the like at an appropriate timing. Device information related to the target device 30 is stored and managed.

The activation target device 30 multicast-transmits a Byeby message on the network 10 by a trigger (S303) such as no operation from the user for a certain period (S304). The monitoring terminal 40 determines, for example, that the activation target device 30 has transitioned to the sleep mode state by receiving the Byebee message, and the status of the activation target device 30 included in the device information of the managed activation target device 30 Update.
In addition, the activation target device 30 multicast-transmits the Byeby message again α seconds before the time (for example, a second, a = 120) specified by the sleepPeriod of the Byeby message passes (S305). The monitoring terminal 40 that has received the Byeby message again updates the state of the activation target device 30 as in S304. When receiving the Byeby message, the monitoring terminal 40 holds the time specified by the sleepPeriod and overwrites and holds the time specified by the sleepPeriod every time the Byeby message is received.
Here, the monitoring terminal 40 determines that the activation target device 30 is not connected to the network 10 when the Byebye message is not received even after a second elapses after the process of S304. If the monitoring terminal 40 determines that the device is not connected, the device information of the activation target device 30 may be updated or deleted.
Note that S306 is the same as S305. Further, when there is no change in the state of the activation target device 30, the Byeby message is repeatedly transmitted by multicast.

On the other hand, the activation request terminal 20 acquires a device list including device information of the activation target device 30 connected to the network 10 from the monitoring terminal 40, triggered by being connected to the network 10 (S307) (S308). ). When the activation target device 30 is in the activated state, the activation request terminal 20 can find the activation target device 30 by performing a search using SSDP M-Search. On the other hand, when the activation target device 30 is not in the activated state, the activation request terminal 20 cannot find the activation target device 30 even when performing a search using SSDP M-Search.
The activation request terminal 20 activates the activation target device 30 based on the acquired device information. Although details will be described with reference to FIG. 4, for example, the activation request terminal 20 instructs the monitoring terminal 40 to activate the activation target device 30 (S <b> 309). In addition, the activation request terminal 20 receives a reply that the monitoring terminal 40 has accepted the activation instruction.

Then, the activation request terminal 20 performs monitoring for confirming the state of the activation target device 30. At this time, the activation request terminal 20 sets a monitoring timer for ending monitoring. The monitoring time is the time (a) calculated from the time (a second) specified by the sleepPeriod, which is an example of the scheduled time, included in the device information acquired from the monitoring terminal 40, and the time when the Byeby message was last received. -N seconds). n is an elapsed time (n seconds: n <a) from the time when the Byeby message was last received.
In other words, the activation request terminal 20 is not limited to the configuration for acquiring the scheduled time from the activation target device 30. For example, the activation request terminal 20 may be configured to acquire the scheduled time from the storage device of the activation request terminal 20 or the storage device connected to the network 10 in which the scheduled time is stored in advance.
When the activation request terminal 20 does not receive an Alive message or a Byeby message from the activation target device 30 for a while after the e-n seconds have elapsed, the activation request terminal 20 ends the monitoring of the activation target device 30. That is, the activation request terminal 20 determines that the activation target device 30 could not be activated (failed) due to the end of monitoring.

The monitoring terminal 40 that has received the activation instruction returns a response to the activation request terminal 20 and transmits an activation request to the activation target device 30 (S310). For example, the monitoring terminal 40 activates the activation target device 30 in the WOL using a MAC address that can be acquired from the SSDP message multicast-transmitted by the activation target device 30.
On the other hand, the activation target device 30 that has received the activation request performs a process for setting the activation state, and multicasts a Byeby message in which the time (b seconds) until this process is completed is designated as sleepPeriod (S311). The activation request terminal 20 that has received the Byeby message via the monitoring terminal 40 updates the monitoring timer to b seconds and continues monitoring.

When the activation target device 30 completes the activation process, the activation target device 30 multicasts an Alive message (S312).
When receiving the Alive message via the monitoring terminal 40, the activation request terminal 20 stops the monitoring timer and ends the monitoring of the activation target device 30 (S313). If the alive message is not received after a lapse of b seconds, the activation request terminal 20 ends the monitoring of the activation target device 30. That is, the activation request terminal 20 determines that the process of setting the activation target device 30 to the activated state has failed due to the end of monitoring.
In the above-described example, the activation request terminal 20 requests activation via the monitoring terminal 40. However, the activation request terminal 20 activates the activation target device 30 based on the activation method information included in the device information acquired from the monitoring terminal 40. Sometimes requests are made.

Next, a series of processing (confirmation processing) for confirming (monitoring) the state of the activation target device 30 after the activation request terminal 20 is connected to the network 10 will be described with reference to FIG. FIG. 4 is a diagram illustrating an example of a flowchart related to the confirmation processing.
The activation request terminal 20 acquires a device list (device list) including device information of the activation target devices 30 that are not activated from the monitoring terminal 40 connected to the network 10, and displays the acquired activation target devices 30 on a display screen or the like. (S401). When there are a plurality of activation target devices 30 that are not activated, a list is displayed based on the respective device information.
Subsequently, the activation request terminal 20 specifies the activation target device 30 specified by, for example, the user operating the input device 713 described later from among the activation target devices 30 displayed as a list (S402).
Subsequently, the activation request terminal 20 acquires activation method information from the device information of the identified activation target device 30 (S403).

Subsequently, the activation request terminal 20 determines whether the activation target device 30 can be activated based on the acquired activation method information (S404). At this time, if the activation request terminal 20 determines that activation is possible, the activation request terminal 20 transmits an activation request (executes activation processing) to the identified activation target device 30 (S405). On the other hand, when the activation request terminal 20 determines that activation is not possible, the activation request terminal 20 requests activation of the activation target device 30 (transmits an activation instruction) to the monitoring terminal 40 (S406).
Subsequently, the activation request terminal 20 executes the activation process or transmits an activation instruction, sets a monitoring timer (S407), and then performs the process of S408. The time specified by the monitoring timer is calculated from, for example, the time (a seconds) specified by the sleepPeriod of the Byeby message last transmitted by the activation target device 30 and the time when the activation request or the activation instruction is performed. .

  In S408, the activation request terminal 20 determines whether the time set in the process of S407 has elapsed (whether the set monitoring timer has expired). At this time, if the activation request terminal 20 determines that the monitoring timer has expired, it determines that the monitoring has ended and the transition to the activation state has failed, and displays, for example, a result indicating failure on the screen (S413). . The activation request terminal 20 may end the confirmation process without performing any process (for example, without performing the process of S413). On the other hand, when determining that the monitoring timer has not expired, the activation request terminal 20 continues to wait for reception of the SSDP message. In other words, the activation request terminal 20 starts waiting to receive an SSDP message that is multicast-transmitted to confirm the state of the activation target device 30 and determines whether or not the SSDP message has been received via the monitoring terminal 40. Judgment is made (S409). At this time, if it is determined that the SSDP message has been received, the activation requesting terminal 20 performs the process of S410, and if it is determined that it has not been received, performs the process of S408.

In S410, it is determined whether the type of the SSDP message is an Alive message or a Byebye message.
At this time, if the activation request terminal 20 determines that the received SSDP message is an Alive message, the activation request terminal 20 determines that the activation target device 30 has transitioned to the activation state, and displays, for example, a successful result on the screen (S413). ). The activation request terminal 20 may end the confirmation process without performing any process (for example, without performing the process of S413).
On the other hand, if the activation request terminal 20 determines that the received SSDP message is a Byebye message, the activation requesting terminal 20 performs a process of acquiring a sleepPeriod value from the Byebye message (S411). Subsequently, the activation request terminal 20 determines whether or not a value has been acquired (whether or not it has been acquired) (S412). At this time, if the activation request terminal 20 determines that it has been acquired, it resets the monitoring timer (S407), and continues the subsequent processing. On the other hand, if it is determined that the activation request terminal 20 has not been acquired, the activation request terminal 20 continues to wait for reception of the SSDP message (S408).

Next, referring to FIG. 5, a description will be given of a start execution process when a start request is received when the start target device 30 is not in a start state. FIG. 5 is a diagram illustrating an example of a flowchart relating to the startup execution process.
When the activation target device 30 is waiting for an activation request (S501), the activation target device 30 determines whether an activation request is received (S502). At this time, if the activation target device 30 determines that the activation request has been received, the activation target device 30 performs the processing of S503. On the other hand, if the activation target device 30 determines that the activation request has not been received, the activation target device 30 enters the activation request waiting state.
In S <b> 503, the activation target device 30 performs processing for obtaining a time (activation time) required for transition to the activation state defined in consideration of the installation environment and setting contents from the storage device 715 described later. The activation target device 30 may perform a process of calculating the activation time in consideration of the installation environment and setting contents.

The activation target device 30 determines whether the activation time has been acquired (S504). At this time, if it is determined that the activation target device 30 has acquired the activation time, the activation target device 30 performs the processing of S505. On the other hand, if it is determined that the activation time has not been acquired, the activation target device 30 performs the processing of S506. In S505, the activation target device 30 multicasts a Byeby message in which the acquired time is set to sleepPeriod, and then performs the processing of S506. Details of this transmission process will be described with reference to FIG.
In S <b> 506, the activation target device 30 activates hardware, software, or both (activation target service) provided for the service provided by the activation target device 30. For example, the activation target device 30 resumes power supply to a device that has been restricted in power supply, or resumes an application that has been stopped. Subsequently, when activation of all the activation target services is completed, the activation target device 30 multicasts an Alive message (S507).
In addition, when the software which acquires starting time, the below-mentioned software which transmits a Byeby message, etc. are not starting, the starting object apparatus 30 performs each process, after starting those software.

Next, the transmission process in S505 of FIG. 5 will be described with reference to FIG.
Here, the activation time may vary depending on the installation environment of the activation target device 30 and the setting contents of the application. For example, regarding the setting of the IP address, the time for setting the IP address differs depending on whether the mode is the fixed mode or the automatic acquisition mode. Even in the automatic acquisition mode, depending on the presence or absence of a DHCP server in the installation environment, the acquisition method differs depending on whether it is DHCP or AutoIP, and the time required for acquiring the IP address differs.
Hereinafter, a case where the IP address setting is automatic setting will be described as an example. FIG. 6 is a diagram illustrating an example of a flowchart relating to transmission processing.

First, the activation target device 30 activates software that transmits a Byeby message to make it ready for transmission (S601). Subsequently, the activation target device 30 acquires an IP address using AutoIP (S602).
Subsequently, the activation target device 30 multicasts a Byeby message using the IP address acquired in S602 (S603). At this time, sleepPeriod is set with a value (startup time) obtained by adding an IP address acquisition timeout value (α seconds) to the DHCP server to the time (A seconds) required for the processing of S506 to S507 in FIG. Yes. This α second is a failure to obtain an IP address when the activation target device 30 performs an IP address acquisition process using DHCP when there is no device having the DHCP server function in the network 10. This is the time until detection (judgment).

The activation target device 30 performs processing for obtaining an IP address from the DHCP server (S604), and determines whether or not the IP address has been obtained (S605). At this time, if the activation target device 30 determines that the IP address has been acquired, the activation target device 30 performs the processing of S606. If the activation target device 30 determines that the IP address has not been acquired, the activation target device 30 performs the processing of S506.
In S606, the activation target device 30 updates the IP address. Subsequently, the activation target device 30 performs multicast transmission of a Byeby message in which the activation time (A seconds) necessary for the processing of S506 to S507 is set to sleepPeriod (S607).
Through the above-described processing, the activation request terminal 20 can be notified of the difference in activation time depending on the installation environment of the activation target device 30. That is, although there are many other factors that affect the activation time, when the activation up to a specified stage is performed, the time required for activation in the remaining stages is further transmitted to the activation request terminal 20 as the activation time. By adopting the configuration, it is possible to solve the problem that the startup time is uncertain.

Next, the functional configuration and hardware configuration of the activation request terminal 20 will be described with reference to FIG. FIG. 7 is a diagram illustrating an example of a functional configuration of the activation request terminal 20 and an example of a hardware configuration.
The display control unit 701 displays a list of the activation target devices 30 and the monitoring terminals 40, device information, and the like on an output device 714 such as an LCD built in the activation request terminal 20 or an externally connected display.
The input control unit 702 receives a selection of a specific activation target device 30 that is desired to be activated from the displayed plurality of activation target devices 30. The input is accepted by an input unit 713 (external connection device) such as a selection button built in the activation request terminal 20, a keyboard, or an external connection device of a device connected to the network 10 via the I / F device 716. Is done through.

The timer control unit 703 sets a monitoring timer in response to a set (registration, update, etc.) request from the network monitoring unit 705, and notifies the network monitoring unit 705 that the timer has expired when the timer expires.
The activation time storage unit 704 stores, for each device, the time until the activation object is activated next time based on the value of the sleepPeriod included in the Byeby message of the activation target device 30 or the device information received from the monitoring terminal 40. And so on.
The network monitoring unit 705 registers a monitoring timer in the timer control unit 703 based on the time until the activation target acquired from the activation time storage unit 704 is activated next time. Further, the network monitoring unit 705 receives the SSDP message transmitted from the monitoring terminal 40 via the I / F device 716 and receives the Alive message and the Byeby message of the activation target device 30. Note that the network monitoring unit 705 may receive the SSDP message multicast-transmitted via the I / F device 716 and receive the Alive message and the Byeby message of the activation target device 30.

In addition, when the network monitoring unit 705 receives an alive message from the activation target device 30 or receives a timer expiration from the timer control unit 703, the network monitoring unit 705 stops monitoring the network. The network monitoring unit 705 receives the Byeby message from the activation target device 30 and instructs the timer control unit 703 to update the monitoring timer when the received Byeby message includes the value of sleepPeriod.
The device activation unit 706 issues an activation request to the activation target device 30 or instructs the monitoring terminal 40 to activate the activation target device 30.

In the present embodiment, the CPU 710 performs processing according to the procedure of the program stored in the ROM 712 or the like, thereby realizing the functions and flowcharts in the activation request terminal 20. Note that the units (710 to 716) of the activation request terminal 20 are communicably connected via a bus 717.
In other words, the activation target device 30 includes hardware such as a CPU and a ROM, and the CPU performs processing according to the procedure of the program stored in the ROM and the like, so that functions and flowcharts in the activation target device 30 are obtained. Such processing is realized. The monitoring terminal 40 has the same hardware as the activation request terminal 20, and the CPU performs processing according to the procedure of the program stored in the ROM or the like, so that the functions in the monitoring terminal 40 and the processing related to the flowchart are performed. Realized.
According to this embodiment, the activation request terminal can detect the failure of the activation request to the activation target device because it is not connected to the network or the application cannot be activated without load, and the activation of the activation target device Monitoring, searching, etc. can be ended reliably.

<Other embodiments>
The present invention can also be realized by executing the following processing. That is, software (program) that realizes the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media, and a computer (or CPU, MPU, etc.) of the system or apparatus reads the program. It is a process to be executed.

  According to the configuration of the above-described embodiment, it is possible to appropriately determine activation in the network device.

  The preferred embodiments of the present invention have been described in detail above, but the present invention is not limited to such specific embodiments, and various modifications can be made within the scope of the gist of the present invention described in the claims.・ Change is possible.

10 network, 20 start request terminal, 30 start target device, 40 monitoring terminal

Claims (14)

An information processing apparatus capable of communicating with a network device via a network,
Request means for requesting the network device to start at least one of hardware and software of the network device;
Obtains a scheduled time indicating the scheduled startup time from the network device or a storage device connected to the network, and receives the startup time required for the startup transmitted from the network device in response to the request Receiving means for
A determination means for determining that the activation has not been performed when the activation time is not received before the scheduled time elapses;
An information processing apparatus comprising: An information processing apparatus capable of communicating with a network device via a network,
Request means for requesting the network device to start at least one of hardware and software of the network device;
An acquisition means for acquiring a scheduled time indicating the scheduled time of activation from a storage device included in the information processing apparatus;
Receiving means for receiving an activation time required for the activation transmitted from the network device in response to the request;
A determination means for determining that the activation has not been performed when the activation time is not received before the scheduled time elapses;
An information processing apparatus comprising: A network device capable of communicating with an information processing device via a network,
Notification means for notifying the information processing apparatus of a scheduled time indicating a scheduled activation time of at least one of hardware and software of the network device;
Receiving means for receiving the activation request from the information processing apparatus;
In response to the activation request, transmission means for transmitting an activation time required for the activation to the information processing device;
An activation means for performing activation of at least one of hardware and software requested to be activated;
When the activation by the activation unit is completed, a notification unit that notifies the information processing apparatus that the activation is completed;
A network device characterized by comprising: 4. The transmission device according to claim 3, wherein when the activation unit has been activated up to a predetermined stage, the transmission unit further transmits to the information processing apparatus the time required for activation in the remaining stages as an activation time. 5. The listed network equipment. A hardware request of a network device, an activation request terminal that instructs activation of at least one of software, and an information processing apparatus capable of communicating with the network device via a network,
Upon receiving the activation instruction transmitted from the activation request terminal, request means for requesting the activation to the network device,
When the activation time indicating the time required for activation sent from the network device in response to the request is received, the activation time is transmitted to the activation request terminal, and the activation from the network device is completed. A transmission means for transmitting the notification to the activation request terminal when a notification is received;
An information processing apparatus comprising: Receiving means for receiving a scheduled time indicating the scheduled time of activation from the network device;
Storage means for overwriting and storing the scheduled time received in the scheduled time stored in the storage means each time the receiving means receives the scheduled time;
Providing means for providing the device information of the network device including the scheduled time to the activation request terminal that obtains a device list including device information of the network device connected to the network;
The information processing apparatus according to claim 5, further comprising: An activation control method for the network device in an information processing apparatus capable of communicating with the network device via a network,
A requesting step for requesting the network device to start at least one of hardware and software of the network device;
Obtains a scheduled time indicating the scheduled startup time from the network device or a storage device connected to the network, and receives the startup time required for the startup transmitted from the network device in response to the request Receiving process to
A determination step of determining that the activation has not been performed if the activation time is not received before the scheduled time elapses;
An activation control method characterized by comprising: An activation control method for the network device in an information processing apparatus capable of communicating with the network device via a network,
A requesting step for requesting the network device to start at least one of hardware and software of the network device;
An acquisition step of acquiring a scheduled time indicating the scheduled time of activation from a storage device included in the information processing device;
A receiving step of receiving an activation time required for the activation transmitted from the network device in response to the request;
A determination step of determining that the activation has not been performed if the activation time is not received before the scheduled time elapses;
An activation control method characterized by comprising: A startup control method for a network device capable of communicating with an information processing device via a network,
A notification step of notifying the information processing apparatus of a scheduled time indicating a scheduled startup time of at least one of hardware and software of the network device;
A receiving step of receiving the activation request from the information processing apparatus;
In response to the activation request, a transmission step of transmitting an activation time required for the activation to the information processing device;
An activation step of performing activation of at least one of hardware and software requested to be activated;
When the activation is completed by the activation step, a notification step of notifying the information processing device that the activation is completed;
An activation control method characterized by comprising: A hardware request of a network device, a startup request terminal that is instructed to start at least one of software, and a startup control method in an information processing apparatus that can communicate with the network device via the network,
Upon receiving the activation instruction transmitted from the activation request terminal, a requesting step for requesting the activation to the network device;
When the activation time indicating the time required for activation sent from the network device in response to the request is received, the activation time is transmitted to the activation request terminal, and the activation from the network device is completed. A transmission step of transmitting the notification to the activation request terminal when receiving the notification;
An activation control method characterized by comprising: A computer that can communicate with network devices via a network.
Request means for requesting the network device to start at least one of hardware and software of the network device;
Obtains a scheduled time indicating the scheduled startup time from the network device or a storage device connected to the network, and receives the startup time required for the startup transmitted from the network device in response to the request Receiving means for
A determination means for determining that the activation has not been performed when the activation time is not received before the scheduled time elapses;
Program to make it work. A computer that can communicate with network devices via a network.
Request means for requesting the network device to start at least one of hardware and software of the network device;
Obtaining means for obtaining a scheduled time indicating the scheduled time of the startup from a storage device included in the computer;
Receiving means for receiving an activation time required for the activation transmitted from the network device in response to the request;
A determination means for determining that the activation has not been performed when the activation time is not received before the scheduled time elapses;
Program to make it work. A computer that can communicate with an information processing device via a network.
Notification means for notifying the information processing apparatus of a scheduled time indicating a scheduled activation time of at least one of hardware and software of the network device;
Receiving means for receiving the activation request from the information processing apparatus;
In response to the activation request, transmission means for transmitting an activation time required for the activation to the information processing device;
An activation means for performing activation of at least one of hardware and software requested to be activated;
When the activation is completed by the activation means, a notification means for notifying the information processing apparatus that the activation is completed;
Program to make it work. An activation request terminal that is instructed to activate at least one of hardware and software of a network device, and a computer that can communicate with the network device via a network,
Upon receiving the activation instruction transmitted from the activation request terminal, request means for requesting the activation to the network device,
When the activation time indicating the time required for activation sent from the network device in response to the request is received, the activation time is transmitted to the activation request terminal, and the activation from the network device is completed. A transmission means for transmitting the notification to the activation request terminal when a notification is received;
Program to make it work.

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